Two-photon absorption-induced photoacoustic imaging of Rhodamine B dyed polyethylene spheres using a femtosecond laser

Langer, Gregor; Bouchal, Klaus-Dieter; Grün, Hubert; Burgholzer, Peter; Berer, Thomas

doi:10.1364/oe.21.022410

Cited by 41 publications

(36 citation statements)

References 28 publications

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“…One possibility for future systems would be to combine optical and optoacoustic systems so as to benefit from both the high resolution of an optical microscope and the larger imaging depth of an optoacoustic system. It has already been shown that optoacoustic microscopy can be integrated into an confocal or multiphoton microscope and deliver complementary contrast [83][84][85], but the full potential of combining the two techniques has not been reached yet.…”

Section: (A) (B) (C) (D)mentioning

confidence: 99%

Unleashing Optics and Optoacoustics for Developmental Biology

Ripoll

Koberstein-Schwarz

Ntziachristos

2015

Trends in Biotechnology

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Section: (A) (B) (C) (D)mentioning

confidence: 99%

Unleashing Optics and Optoacoustics for Developmental Biology

Ripoll

Koberstein-Schwarz

Ntziachristos

2015

Trends in Biotechnology

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“…combination of photoacoustic imaging with diffuse optical imaging 19 , laser scanning microscopy 20 , multiphoton fluorescence imaging 21,22 , ultrasound imaging 23,24 , and optical coherence tomography 16,[24][25][26][27][28][29] . Recently, we presented a fiber-based ncPAI method 18 .…”

Section: Introductionmentioning

confidence: 99%

Multimodal non-contact photoacoustic and OCT imaging with galvanometer scanning

et al. 2015

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In this paper we present multimodal non-contact photoacoustic and optical coherence tomography (OCT) imaging using a galvanometer scanner. Photoacoustic signals are acquired without contact on the surface of a specimen using an interferometric technique. The interferometer is realized in a fiber-optic network using a fiber laser at 1550 nm as source.In the same fiber-optic network a spectral-domain OCT system is realized, using a broadband light source at 1300 nm. Light from the fiber laser and the OCT source are multiplexed into the same fiber and the same objective is used for both imaging modalities. Fast non-contact photoacoustic and OCT imaging is demonstrated by scanning the detection spot utilizing a galvanometer scanner. Multimodal photoacoustic and OCT imaging is shown on agarose phantoms. As the same fiber network and optical components are used for non-contact photoacoustic and OCT imaging the obtained images are co-registered intrinsically.

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“…In order to achieve deep tissue imaging with a high optical resolution and an improved penetration depth compared with the current MPFM, multi-photon photoacoustic imaging is highly desired [6][7][8][9][10][11]. Similar to MPFM [12,13], the photo-excited acoustic signals should be generated nonlinearly by high-intensity optical fields within the focal volume, so the spatial (E.g.…”

Section: Introductionmentioning

confidence: 99%

“…Unfortunately, although different two-photon photoacoustic detection methods have been proposed, how to efficiently separate the multi-photon-absorption-induced acoustic signals from the single-photon-absorption-induced signals is still a critical issue [6,10,11,14,15], with the fact that the nonlinear signal is several orders of magnitude weaker than its linear counterpart. Furthermore, because the linear signal is generated within the whole light path where the excitation light passing through, it is thus impossible to distinguish whether the signal is generated only inside the focal volume, especially in an unknown material under test with a broadband response.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear photoacoustic microscopy via a loss modulation technique: from detection to imaging

Lai¹,

Lee²,

Chang³

et al. 2014

Opt. Express

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Abstract:In order to achieve high-resolution deep-tissue imaging, multiphoton fluorescence microscopy and photoacoustic tomography had been proposed in the past two decades. However, combining the advantages of these two imaging systems to achieve optical-spatial resolution with an ultrasonic-penetration depth is still a field with challenges. In this paper, we investigate the detection of the two-photon photoacoustic ultrasound, and first demonstrate background-free two-photon photoacoustic imaging in a phantom sample. To generate the background-free two-photon photoacoustic signals, we used a high-repetition rate femtosecond laser to induce narrowband excitation. Combining a loss modulation technique, we successfully created a beating on the light intensity, which not only provides pure sinusoidal modulation, but also ensures the spectrum sensitivity and frequency selectivity. By using the lock-in detection, the power dependency experiment validates our methodology to frequencyselect the source of the nonlinearity. This ensures our capability of measuring the background-free two-photon photoacoustic waves by detecting the 2nd order beating signal directly. Furthermore, by mixing the nanoparticles and fluorescence dyes as contrast agents, the two-photon photoacoustic signal was found to be enhanced and detected. In the end, we demonstrate subsurface two-photon photoacoustic bio-imaging based on the optical scanning mechanism inside phantom samples.

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Two-photon absorption-induced photoacoustic imaging of Rhodamine B dyed polyethylene spheres using a femtosecond laser

Cited by 41 publications

References 28 publications

Unleashing Optics and Optoacoustics for Developmental Biology

Unleashing Optics and Optoacoustics for Developmental Biology

Multimodal non-contact photoacoustic and OCT imaging with galvanometer scanning

Nonlinear photoacoustic microscopy via a loss modulation technique: from detection to imaging

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